Female rats were fed with ethanol extraction of Alismatis Rhizoma for 6 months to study its nephrotoxicity and molecular mechanism. HPLC was used to determine the components in ethanol extraction of Alismatis Rhizoma. An assessment of renal pathology was determined by HE staining. Meanwhile Western blot, immunohistochemical assay and q-PCR were used to assess the protein expression and mRNA level of Kim-1, clusterin, LCN2, osteopontin, ceruloplasmin and TIMP1 in rat kidney. Eight components were identified in ethanol extraction of Alismatis Rhizoma. Tubule-interstitial inflammation, renal tubular epithelial cell exfoliation and morphological changes of cell were observed in rat kidney. Comparing with control blank group, the protein expression of clusterin, Kim-1, LCN2, osteopontin and TIMP1 in rat kidney was significantly increased while the protein expression of ceruloplasmin was significantly decreased. The mRNA level of Kim-1, TIMP1, osteopontin, clusterin and LCN2 was significantly increased while the mRNA level of ceruloplasmin was significantly decreased. In this study, it was inferred that there is chronic toxicity in kidney by using high dosage of ethanol extraction of Alismatis Rhizoma for a long time. And the underlying molecular mechanism was related to regulate the protein expression of ceruloplasmin, clusterin, Kim-1, LCN2, osteopontin and TIMP1.
Keywords: Alismatis Rhizoma; ethanol extraction of Alismatis Rhizoma; molecular mechanism; nephrotoxicity.
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